Shape Dependence of Holographic Renyi Entropy in Conformal Field Theories

Abstract

We develop a framework for studying the well-known universal term in the Renyi entropy for an arbitrary entangling region in four-dimensional conformal field theories that are holographically dual to gravitational theories. The shape dependence of the Renyi entropy Sn is described by two coefficients: fb(n) for traceless extrinsic curvature deformations and fc(n) for Weyl tensor deformations. We provide the first calculation of the coefficient fb(n) in interacting theories by relating it to the stress tensor one-point function in a deformed hyperboloid background. The latter is then determined by a straightforward holographic calculation. Our results show that a previous conjecture fb(n) = fc(n), motivated by surprising evidence from a variety of free field theories and studies of conical defects, fails holographically.